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A Study of the Interactions between Phenolic Resin and Metal Sulphides and Their Contribution to PAD Performance and Wear

Journal Article
2020-01-1600
ISSN: 2641-9645, e-ISSN: 2641-9645
DOI: https://doi.org/10.4271/2020-01-1600
Published October 05, 2020 by SAE International in United States
A Study of the Interactions between Phenolic Resin and Metal Sulphides and Their Contribution to PAD Performance and Wear
Sector:
Citation: Macías, G., Lorenzana, C., and Fernandez, J., "A Study of the Interactions between Phenolic Resin and Metal Sulphides and Their Contribution to PAD Performance and Wear," SAE Int. J. Adv. & Curr. Prac. in Mobility 3(2):914-921, 2021, https://doi.org/10.4271/2020-01-1600.
Language: English

References

  1. Eriksson , M. , and Jacobson , S. Tribological Surfaces of Organic Brake Pads Tribology International 33 817 827 2000
  2. Österle , W. , and Urban , I. Friction Layers and Friction Films on PMC Brake Pads Wear 257 215 226 2004
  3. Österle , W. , Griepentrog , M. , Gross , T. , and Urban , I. Chemical and Microstructural Changes Induced by Friction and Wear of Brakes Wear 251 1469 1476 2001
  4. Pilato , L. Phenolic Resins: A Century of Progress New York Springer 2010 10.1007/978-3-642-04714-5
  5. Martinez , A.M. , and Echeberria , J. Towards a Better Understanding of the Reaction between Metal Powders and the Solid Lubricant Sb 2 S 3 in a Low-Metallic Brake Pad at High Temperature Wear 348-349 27 42 2016
  6. Matějka , V. et al. Possible Stibnite Transformation at the Friction Surface of the Semi-Metallic Friction Composites Designed for Car Brake Linings Applied Surface Science 258 1862 1868 2011
  7. Lee , P.W. , and Filip , P. Friction and Wear of Cu-Free and Sb-Free Environmental Friendly Automotive Brake Materials Wear 302 1404 1413 2013
  8. Österle , W. , and Dmitriev , A. The Role of Solid Lubricants for Brake Friction Materials Lubricants 4 5 2016
  9. Melcher , B. , and Faullant , P. A Comprehensive Study of Chemical and Physical Properties of Metal Sulfides SAE Technical Paper 2000-01-2757 2000 https://doi.org/10.4271/2000-01-2757
  10. Matějka , V. et al. Possible Stibnite Transformation at the Friction Surface of the Semi-Metallic Friction Composites Designed for Car Brake Linings Applied Surface Science 258 1862 1868 2011
  11. Macías , B.G. Tin Sulphide Substitution through Modification of Oxidation Properties of Synthetic Sulphides Proceedings of the 21th International Friction & Sealing Material Technology Exchange and Product Exhibition 30 34 2019
  12. 2006 https://rruff.info/
  13. Sundarkrishnaa , K.L. Friction Material Composites Copper-Metal-Free Material Design Perspective Second Switzerland Springer 2015 150 152 10.1007/978-3-319-14069-8
  14. Dante , R. Handbook of Friction Materials and Their Applications Cambridge Elsevier 2016 79 90 978-0-08-100619-1
  15. Ostermeyer , G. , Müller , M. , Brumme , S. , and Srisupattarawanit , R. Stability Analysis with an NVH Minimal Model for Brakes under Consideration of Polymorphic Uncertainty of Friction Vibration 2 135 156 2019

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